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Volume 11, Issue 2
Non-Steady Creep Analysis of FGM Rotating Disc Using GDQ Method

Hodais Zharfi & Hamid Ekhteraei-Toussi

Adv. Appl. Math. Mech., 11 (2019), pp. 452-466.

Published online: 2019-01

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  • Abstract

Considering primary and secondary regimes of creep, deformation of a rotating disc made of Al-SiC Functionally Graded Material (FGM) is investigated using Generalized Differential Quadrature Method (GDQ). Primary and secondary creep are described by Norton law in which creep parameters depended on volume fraction distribution of SiC reinforcement particles, temperature and particle size. All mechanical and thermal properties are functions of volume fraction percentage of SiC particles. Using equilibrium, constitutive and strain-displacement equations, displacement-based creep equation is obtained. This non-closed form equation is solved using GDQ method and a self-developed solution algorithm. Different graphs of creep strains and stresses are extracted using this presented method of creep analysis. Studies show that functionally distribution of particle content and prevailing temperature does not influence the stress fields considerably but obviously, the creep rates depend on temperature level and percentage of reinforcing particles.

  • AMS Subject Headings

74A99

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COPYRIGHT: © Global Science Press

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@Article{AAMM-11-452, author = {Zharfi , Hodais and Ekhteraei-Toussi , Hamid}, title = {Non-Steady Creep Analysis of FGM Rotating Disc Using GDQ Method}, journal = {Advances in Applied Mathematics and Mechanics}, year = {2019}, volume = {11}, number = {2}, pages = {452--466}, abstract = {

Considering primary and secondary regimes of creep, deformation of a rotating disc made of Al-SiC Functionally Graded Material (FGM) is investigated using Generalized Differential Quadrature Method (GDQ). Primary and secondary creep are described by Norton law in which creep parameters depended on volume fraction distribution of SiC reinforcement particles, temperature and particle size. All mechanical and thermal properties are functions of volume fraction percentage of SiC particles. Using equilibrium, constitutive and strain-displacement equations, displacement-based creep equation is obtained. This non-closed form equation is solved using GDQ method and a self-developed solution algorithm. Different graphs of creep strains and stresses are extracted using this presented method of creep analysis. Studies show that functionally distribution of particle content and prevailing temperature does not influence the stress fields considerably but obviously, the creep rates depend on temperature level and percentage of reinforcing particles.

}, issn = {2075-1354}, doi = {https://doi.org/10.4208/aamm.OA-2017-0343}, url = {http://global-sci.org/intro/article_detail/aamm/12970.html} }
TY - JOUR T1 - Non-Steady Creep Analysis of FGM Rotating Disc Using GDQ Method AU - Zharfi , Hodais AU - Ekhteraei-Toussi , Hamid JO - Advances in Applied Mathematics and Mechanics VL - 2 SP - 452 EP - 466 PY - 2019 DA - 2019/01 SN - 11 DO - http://doi.org/10.4208/aamm.OA-2017-0343 UR - https://global-sci.org/intro/article_detail/aamm/12970.html KW - Primary and secondary creep, time, temperature, rotating disc, FGM, GDQ method. AB -

Considering primary and secondary regimes of creep, deformation of a rotating disc made of Al-SiC Functionally Graded Material (FGM) is investigated using Generalized Differential Quadrature Method (GDQ). Primary and secondary creep are described by Norton law in which creep parameters depended on volume fraction distribution of SiC reinforcement particles, temperature and particle size. All mechanical and thermal properties are functions of volume fraction percentage of SiC particles. Using equilibrium, constitutive and strain-displacement equations, displacement-based creep equation is obtained. This non-closed form equation is solved using GDQ method and a self-developed solution algorithm. Different graphs of creep strains and stresses are extracted using this presented method of creep analysis. Studies show that functionally distribution of particle content and prevailing temperature does not influence the stress fields considerably but obviously, the creep rates depend on temperature level and percentage of reinforcing particles.

Zharfi , Hodais and Ekhteraei-Toussi , Hamid. (2019). Non-Steady Creep Analysis of FGM Rotating Disc Using GDQ Method. Advances in Applied Mathematics and Mechanics. 11 (2). 452-466. doi:10.4208/aamm.OA-2017-0343
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